/*=========================================================================
 *
 *  Copyright Insight Software Consortium
 *
 *  Licensed under the Apache License, Version 2.0 (the "License");
 *  you may not use this file except in compliance with the License.
 *  You may obtain a copy of the License at
 *
 *         http://www.apache.org/licenses/LICENSE-2.0.txt
 *
 *  Unless required by applicable law or agreed to in writing, software
 *  distributed under the License is distributed on an "AS IS" BASIS,
 *  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 *  See the License for the specific language governing permissions and
 *  limitations under the License.
 *
 *=========================================================================*/

#ifndef itkLevelSetEquationPropagationTerm_hxx
#define itkLevelSetEquationPropagationTerm_hxx

#include "itkLevelSetEquationPropagationTerm.h"
#include "itkCastImageFilter.h"

namespace itk
{
template <typename TInput, typename TLevelSetContainer, typename TPropagationImage>
LevelSetEquationPropagationTerm<TInput, TLevelSetContainer, TPropagationImage>::LevelSetEquationPropagationTerm()
{
  this->m_TermName = "Propagation term";
  this->m_RequiredData.insert("BackwardGradient");
  this->m_RequiredData.insert("ForwardGradient");
}

template <typename TInput, typename TLevelSetContainer, typename TPropagationImage>
void
LevelSetEquationPropagationTerm<TInput, TLevelSetContainer, TPropagationImage>::InitializeParameters()
{
  this->SetUp();

  if (this->m_PropagationImage.IsNull())
  {
    using CastFilterType = CastImageFilter<TInput, TPropagationImage>;
    typename CastFilterType::Pointer castFilter = CastFilterType::New();
    castFilter->SetInput(this->m_Input);
    castFilter->Update();

    this->m_PropagationImage = castFilter->GetOutput();
  }
}

template <typename TInput, typename TLevelSetContainer, typename TPropagationImage>
void
LevelSetEquationPropagationTerm<TInput, TLevelSetContainer, TPropagationImage>::Initialize(
  const LevelSetInputIndexType &)
{}

template <typename TInput, typename TLevelSetContainer, typename TPropagationImage>
void
LevelSetEquationPropagationTerm<TInput, TLevelSetContainer, TPropagationImage>::Update()
{}

template <typename TInput, typename TLevelSetContainer, typename TPropagationImage>
void
LevelSetEquationPropagationTerm<TInput, TLevelSetContainer, TPropagationImage>::UpdatePixel(
  const LevelSetInputIndexType & itkNotUsed(iP),
  const LevelSetOutputRealType & itkNotUsed(oldValue),
  const LevelSetOutputRealType & itkNotUsed(newValue))
{}

template <typename TInput, typename TLevelSetContainer, typename TPropagationImage>
typename LevelSetEquationPropagationTerm<TInput, TLevelSetContainer, TPropagationImage>::LevelSetOutputRealType
LevelSetEquationPropagationTerm<TInput, TLevelSetContainer, TPropagationImage>::PropagationSpeed(
  const LevelSetInputIndexType & iP) const
{
  return (static_cast<LevelSetOutputRealType>(this->m_PropagationImage->GetPixel(iP)));
}

template <typename TInput, typename TLevelSetContainer, typename TPropagationImage>
typename LevelSetEquationPropagationTerm<TInput, TLevelSetContainer, TPropagationImage>::LevelSetOutputRealType
LevelSetEquationPropagationTerm<TInput, TLevelSetContainer, TPropagationImage>::Value(const LevelSetInputIndexType & iP)
{
  LevelSetGradientType backwardGradient = this->m_CurrentLevelSetPointer->EvaluateBackwardGradient(iP);
  LevelSetGradientType forwardGradient = this->m_CurrentLevelSetPointer->EvaluateForwardGradient(iP);

  const LevelSetOutputRealType zero = NumericTraits<LevelSetOutputRealType>::ZeroValue();

  //
  // Construct upwind gradient values for use in the propagation speed term:
  //  $\beta G(\mathbf{x})\mid\nabla\phi\mid$
  //
  // The following scheme for "upwinding" in the normal direction is taken
  // from Sethian, Ch. 6 as referenced above.411
  //
  LevelSetOutputRealType propagation_gradient = zero;

  for (unsigned int i = 0; i < ImageDimension; i++)
  {
    propagation_gradient +=
      itk::Math::sqr(std::max(backwardGradient[i], zero)) + itk::Math::sqr(std::min(forwardGradient[i], zero));
  }

  propagation_gradient *= this->PropagationSpeed(iP);

  return propagation_gradient;
}

template <typename TInput, typename TLevelSetContainer, typename TPropagationImage>
typename LevelSetEquationPropagationTerm<TInput, TLevelSetContainer, TPropagationImage>::LevelSetOutputRealType
LevelSetEquationPropagationTerm<TInput, TLevelSetContainer, TPropagationImage>::Value(const LevelSetInputIndexType & iP,
                                                                                      const LevelSetDataType & iData)
{
  const LevelSetOutputRealType zero = NumericTraits<LevelSetOutputRealType>::ZeroValue();
  LevelSetOutputRealType       propagation_gradient = zero;

  for (unsigned int i = 0; i < ImageDimension; i++)
  {
    propagation_gradient += itk::Math::sqr(std::max(iData.BackwardGradient.m_Value[i], zero)) +
                            itk::Math::sqr(std::min(iData.ForwardGradient.m_Value[i], zero));
  }

  propagation_gradient *= this->PropagationSpeed(iP);

  return propagation_gradient;
}

} // namespace itk

#endif
